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HeyCitI: Healthy Cycling in a City using Self-Adaptive Internet-of-Things KU Leuven
Air pollution is the biggest environmental health risk in Europe. Smart city initiatives that rely on the Internet-of-Things (IoT) can help addressing the problem. In this paper, we introduce HeyCitI, short for Healthy Cycling in a City using IoT. HeyCitI finds the most healthy path in a city and dynamically adapts the path on the way avoiding areas with higher pollution. To that end, HeyCitI uses up to date information from pollution sensors ...
1st International Workshop on Business Processes Meet Internet-of-Things (BP-Meet-IoT 2017) KU Leuven
Applying Architecture-Based Adaptation to Automate the Management of Internet-of-Things KU Leuven
© Springer Nature Switzerland AG 2018. Architecture-based adaptation equips a software-intensive system with a feedback loop that enables the system to adapt itself at runtime to changes to maintain its required quality goals. To guarantee the required goals, existing adaptation approaches apply exhaustive verification techniques at runtime. However these approaches are restricted to small-scale settings, which often limits their applicability ...
Architecture for incorporating internet-of-things sensors and actuators into robot task planning in dynamic environments Ghent University
Building dynamic and dependable component-based Internet-of-Things applications with Dawn KU Leuven
© 2016 IEEE. The Internet of Things (IoT) embeds sensors, actuators and computation into everyday 'things' such as lights and thermostats. These things form low-power wireless networks connecting to the Internet via IPv6 for monitoring and control. Such IoT systems are increasingly subject to runtime reconfiguration, wherein new hardware and software may be installed dynamically to accommodate changing application objectives. Supporting runtime ...
Hitch Hiker 2.0: a binding model with priority-based data aggregation for the Internet-of-Things KU Leuven Ghent University
© 2016, Ramachandran et al. Wireless communication plays a critical role in determining the lifetime of Internet-of-Things (IoT) systems. Data aggregation approaches have been widely used to enhance the performance of IoT applications. Such approaches reduce the number of packets that are transmitted by combining multiple packets into one transmission unit, thereby minimising energy consumption, collisions and congestion. However, current data ...